1. Field of Invention
The present invention relates to a fixing structure applied to a heat conduction pad in a heatsink module, and more particularly, to a fixing structure by combining a fixing member and an elastic member with elastic controlling means to fix a heat conduction pad.
2. Related Art
For increasing computer operation speed and function, more and more electronic components such as CPUs, chips, and power ICs are added in the computer. Generally speaking, when those electronic components work, the components will consume power and generate heat in the computer inside. Hence, the computer may be easy to crash down under the increasing temperature. Therefore, how to reduce the temperature inside the computer to main the stability of the computer operation is an important issue.
To effectively eliminate heat generating by electronic components, heatsink module manufacturers design and provide various kinds of heatsink module assembly. As shown in
The above-mentioned heat sink assembly composed of the heat conduction pad incorporated with the heat conductive pipe and the fin heatsink has a feature of fully compressed thickness. Especially, it can be used in the laptop computer, which has characters of small in size, slim in shape, and light in weight. In addition, for the heat sink assembly manufacturers, not only good heat dissipating efficiency for removing the heat generating by electronic component is needed, but the manufacturing efficiency and cost of the heat sink assembly are also needed to be taken as a consideration for enhancing the competitive edge of the product.
In the manufacturing of heatsink assembly, the conventional heat conduction pads are often made by die-cast molding. The die-cast molding has the shortfalls of higher cost and heavy weight. Therefore, the aluminum element used for contacting with the CPU chip in the heat conduction pad is often formed by a metal sheet stamping instead of die-cast molding. The weight of the new type heat conduction pad 10a is lighter, but the strength of the heat conduction pad 10a becomes weak, which may cause the problem of deformation due to unbalanced applied force during the assembly process (In the conventional method, operator usually uses screw means to fix the heat conduction pad 10a on the CPU. However, the applied force for screwing will not be the same). The deformation may cause the problem of reducing the contact area between the heat conduction pad 10a and the CPU, thus affecting heat conducting effect. Hence, in conventional, an auxiliary block 11a is needed to reinforce the structure as shown in
Besides, on the circuit board, other components such as Northbridge chip also require a heatsink for dissipating heat during operation. Therefore, many heatsinks and auxiliary elements are need, which will obviously increase production costs
It is an object of the present invention to provide a fixing structure for heat conduction pad for solving that the contact area between the heat conduction pad and the heat generating electronic component may be unable to fully contact with each other because the applied force is unbalanced during the assembly, which may incur a deformation problem.
It is another object of the present to provide a fixing structure for heat conduction pad for fixing two conduction pads in the same time by the fixing structure.
To achieve aforementioned objects, the present invention provides a fixing structure applied to the heat conduction pad in the heatsink module, wherein a first conduction pad is pressed on a heat generating electronic component mounted on a circuit board. The fixing structure comprises an elastic member and a fixing member, wherein one end of the elastic member is a fastening portion and the other end is a fixing portion. In addition, a pressing portion is located between the elastic portion and the fastening portion. When the fastening portion is fastened on the circuit board through the fixing member, the pressing portion is pressed on the first heat conduction pad toward the first heat generating electronic component so as to reduce the amount of screw use.
Both the fastening portion and the pressing portion are extend from the fixing portion and symmetrically with the first heat generating electronic component; therefore, when the pressing portion is pressed on the first heat conduction pad, the applied force of the pressing portion onto the first heat conduction pad is equally distributed so as to prevent the deformation problem of prior art.
In addition, there is a suspension arm stretched from the fixing portion. Hence, when the circuit board has a second heat conduction pad stacked with a second heat generating electronic component and the fixing portion of the fixing structure is fixed by a fixing member, the suspension arm can be used to press the second heat conduction pad on the second heat generating electronic component. This is to be noted that the suspension arm may have a pressing plate. The surface of the pressing plate may contact with the second heat conduction pad to let the pressing force provided by the suspension arm equally distribute on the surface of the second heat conduction pad.
The features and practice of the present invention will be illustrated below in detail through preferred embodiments with reference to the accompanying drawings.
Further scope of applicability of the present invention will become apparent from the detailed description given hereinafter. However, it should be understood that the detailed description and specific examples, while indicating preferred embodiments of the invention, are given by way of illustration only, since various changes and modifications within the spirit and scope of the invention will become apparent to those skilled in the art from this detailed description.
The present invention will become more fully understood from the detailed description given hereinbelow illustration only, and thus is not limitative of the present invention, and wherein:
In accord with the disclosed fixing structure of heat conduction pad on a circuit board, the heat conduction pad referred herein is applied to a CPU chip. However, the present invention is nevertheless limited to the example of the CPU chip though. Any IC chip that generates heat can make use of the technique disclosed herein. In the following description, the CPU chip is used as a preferred embodiment.
The embodiment is illustrated in
The fixing structure used to fix the first and second heat conduction pads includes fixing members 73 and an elastic member 40. The elastic member 40 has a fastening portion 41, a fixing portion 42, two pressing portions 43, and a suspension arm 44 extended from one end of the elastic member 40. The pressing portion 43 is located between the fastening portion 41 and the fixing portion 42. In addition, the fastening portion 41 has two U-shape openings 411, and the U-shape openings 411 are used to hook the joint pins 71 of the circuit board. Then, the fixing members 73 (such as a screw in
The pressing portions 43 are symmetrically extended outward from the fixing portion 42 and symmetrical to the first heat generating electronic components 30 functioning as a center. Therefore, when the pressing portion 43 is pressed on the first heat conduction pad 10, a pressing force of the pressing portion 43 can be uniformly distributed on the first heat conduction pad 10 so that the conduction pad 10 and the first heat generating electronic components 30 can be tightly contacted with each other.
In addition, after the fixing portion 42 is fixed on the circuit board 70, the suspension arm 44 is pressed on the second heat conduction pad 74. The second heat conduction pad 74, therefore, is pressed on the second heat generating electronic component 31. Hence, with one-time fixing operation, the purpose of fixing two heat conduction pads is achieved. The place where the suspension arm 44 presses on the second heat conduction pad 74 may has a pressing plate 441 used for increasing contact area with the second heat conduction pad 74, so as to avoid the deformation problem on the second heat conduction pad 74.
As shown in
With continual reference to
The invention being thus described, it will be obvious that the same may be varied in many ways. Such variations are not to be regarded as a departure from the spirit and scope of the invention, and all such modifications as would be obvious to one skilled in the art are intended to be included within the scope of the following claims.